Automatic Volume Calculation and Mapping of Construction and Demolition Debris Using Drones, Deep Learning, and GIS

Jiang, Yuhan; Huang, Yilei; Liu, Jingkuang; Li, Dapeng; Li, Shuiyuan; Nie, Weijing; Chung, In-Hun

doi:10.3390/drones6100279

Cited by 24 publications

(12 citation statements)

References 39 publications

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“…Another is to compute the volumes of C&D waste in landfills by applying mobile mapping technology provided by GeoSLAM (Simultaneous localisation and mapping) [18]. A study demonstrates that an innovative approach effectively integrates various technologies, such as Drones, CV, GIS, and 3DR, which shows better results in the final quantification and mapping of C&D debris [19]. Big Data (BD) is adopted in C&D waste management to analyse massive amounts of information generated from C&D waste to settle landfill management issues [20].…”

Section: Literature Reviewmentioning

confidence: 99%

Framework to Identify Directions for Future Construction and Demolition Waste Management Technologies

Jaiswal,

Roy,

Bugalia

et al. 2024

E3S Web Conf.

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Effective waste management is essential for sustainable urban development, and Construction and Demolition (C&D) waste poses a significant challenge due to its volume and composition in urban regions. In recent years, technological advancements have offered innovative solutions to improve the management of C&D waste. This exploratory study primarily uses secondary data and draws on case studies from 5 Indian cities and global literature on technological innovations in C&D waste management to propose a preliminary framework for identifying how different technologies can play a vital role and where they can be incorporated into the reverse supply chain of C&D waste in the Indian urban context. This paper paves the road for future research that will use this initial framework to identify more practical technological solutions based on a thorough understanding of ground reality, improving chances of technology adoption.

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Section: Literature Reviewmentioning

confidence: 99%

Framework to Identify Directions for Future Construction and Demolition Waste Management Technologies

Jaiswal,

Roy,

Bugalia

et al. 2024

E3S Web Conf.

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“…Considering the criteria that those with a minimum number of citations equal to 50 are relevant authors in the field under study, 12 authors, divided into two clusters, were identified (see Figure 6). Of these, seven authors, namely Zhang, H., Li, S., Wang, Y., Li, Y., Wang, X., Zhang, X., and Solla, M., hold the authorship of documents included in the set under analysis (84 documents), including five articles considered in Phases 4 and 5 [30,[38][39][40][41]. Upon analyzing Figures 2-6, it becomes evident that the number of scientific publications related to the use of UAVs for infrastructure inspection and monitoring, as well as the emergence of relevant authors in this field, are on a rising trend.…”

Section: Characterization Of the Selected Documentsmentioning

confidence: 99%

“…This progress stands out as a crucial element for the effective understanding and monitoring of infrastructures, including those related to transportation [20,21,23]. This technology has been comprehensively applied to the monitoring and management of construction works [41,44], including those related to road construction [45], and in the management of transport infrastructure assets, such as pavements. Application studies aimed at monitoring [7][8][9]12,13,46,47] and determining [26] the condition of flexible road pavements are common, with less expression for rigid [47], stone [28], or airport [7,17] pavements.…”

Section: Research Trend Analysismentioning

confidence: 99%

Pavement Inspection in Transport Infrastructures Using Unmanned Aerial Vehicles (UAVs)

Feitosa,

Santos,

Almeida

2024

Sustainability

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The growing demand for the transportation of goods and people has led to an increasing reliance on transportation infrastructure, which, in turn, subjects the pavements to high traffic volumes. In order to maintain adequate service and safety standards for users, it is essential to establish effective maintenance strategies that ensure the preservation of pavement conditions. As a result, emerging innovations in pavement surface inspection methods, surpassing traditional techniques in terms of inspection and data processing speed and accuracy, have garnered significant attention. One such groundbreaking innovation in inspection systems that has been tested and used in recent years to assess infrastructure condition is the use of unmanned aerial vehicles (UAVs). This study aims to present a critical open-access literature review on the use of UAVs in the inspection of transportation infrastructure pavement in order to assess the type of equipment used, the technology involved, applicability conditions, data processing, and future evolution. The analysis of relevant literature suggests that the integration of intelligent technologies substantially enhances the accuracy of data collection and the detection of pavement distress. Furthermore, it is evident that most applications and research efforts are oriented towards exploring image processing techniques for the creation of 3D pavement models and distress detection and classification.

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“…Shape and position control in concrete casting and precast installation requires finding accurate object/segment boundaries [7]. Volume calculations in the construction and demolition (C&D) phases can be automated from laser scanner, UAV, or satellite syn-thetic aperture radar (SAR) footage with the help of semantic segmentation [8,9]. Reverse engineering digital twins of existing buildings (as built and scan to BIM) requires assigning element classes to scan data to reconstruct element geometries [10,11].…”

Section: Introductionmentioning

confidence: 99%

Semantic Point Cloud Segmentation with Deep-Learning-Based Approaches for the Construction Industry: A Survey

Rauch

Braml

2023

Applied Sciences

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Point cloud learning has recently gained strong attention due to its applications in various fields, like computer vision, robotics, and autonomous driving. Point cloud semantic segmentation (PCSS) enables the automatic extraction of semantic information from 3D point cloud data, which makes it a desirable task for construction-related applications as well. Yet, only a limited number of publications have applied deep-learning-based methods to address point cloud understanding for civil engineering problems, and there is still a lack of comprehensive reviews and evaluations of PCSS methods tailored to such use cases. This paper aims to address this gap by providing a survey of recent advances in deep-learning-based PCSS methods and relating them to the challenges of the construction industry. We introduce its significance for the industry and provide a comprehensive look-up table of publicly available datasets for point cloud understanding, with evaluations based on data scene type, sensors, and point features. We address the problem of class imbalance in 3D data for machine learning, provide a compendium of commonly used evaluation metrics for PCSS, and summarize the most significant deep learning methods developed for PCSS. Finally, we discuss the advantages and disadvantages of the methods for specific industry challenges. Our contribution, to the best of our knowledge, is the first survey paper that comprehensively covers deep-learning-based methods for semantic segmentation tasks tailored to construction applications. This paper serves as a useful reference for prospective research and practitioners seeking to develop more accurate and efficient PCSS methods.

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Automatic Volume Calculation and Mapping of Construction and Demolition Debris Using Drones, Deep Learning, and GIS

Cited by 24 publications

References 39 publications

Framework to Identify Directions for Future Construction and Demolition Waste Management Technologies

Framework to Identify Directions for Future Construction and Demolition Waste Management Technologies

Pavement Inspection in Transport Infrastructures Using Unmanned Aerial Vehicles (UAVs)

Semantic Point Cloud Segmentation with Deep-Learning-Based Approaches for the Construction Industry: A Survey

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